CN204338556U - Touch-screen reclaims separator - Google Patents

Abstract

The utility model is applicable to touch screen technology field, provide a kind of touch-screen and reclaim separator, comprise support box, for supporting touch module and this touch module being heated to warm table, the wire of 70 ~ 80 degrees Celsius, being used for the driving mechanism that drives the Power Component of wire transverse shifting in touch module and be used for driving wire towards touch module feeding; Wire surface is provided with some micro-structurals.Touch module is heated to 70 ~ 80 degrees Celsius, the optical cement of touch module is suitably expanded, softening, increase the distance between touch-screen and display screen or substrate, facilitate metal wire cutting; Micro-structural is set in wire surface, makes wire surface more coarse, during the optical cement of cutting on line touch module, form saw cut effect, improve cutting efficiency; And relative to prior art, reduce the heating-up temperature of touch module, more energy-conservation, also can reduce the probability of the problem generation of scalding operating personnel.

Description

Touch-screen reclaims separator

Technical field

The utility model belongs to touch screen technology field, particularly relates to a kind of touch-screen and reclaims separator.

Background technology

The developing rapidly in the whole world along with smart mobile phone and panel computer, touch-screen becomes mobile phone and the indispensable parts of panel computer.Touch-screen is generally be bonded on display screen or other substrate by optical cement, forms touch module.But touch-screen use amount is increasing, when touch-screen size is increasing, unavoidably there will be some problems when assembling, this just needs touch-screen to be separated with display screen or substrate, to carry out recycling to touch-screen.Prior art reclaims separation to touch-screen and mainly contains three kinds of methods:

The first is liquid nitrogen partition method, mainly will the touch module of discrete touch screen to place (-196 DEG C) in liquid nitrogen freezing, to change optical cement physical property, then put on Frostbite preventing gloves touch module of taking and be separated.This method speed is fast, and no matter how strong optical cement viscosity is, or touch module all can be separated through ultraviolet (UV) solidification by optical cement easily.But this method needs to do water-proofing treatment to the backlight of display screen, otherwise liquid nitrogen can affect display screen quality by entry of backlight, and liquid nitrogen cost is high, is only applicable to operation disposable, in enormous quantities, can waste liquid nitrogen when product volume is few, and easy frost bite injury personnel.

Second method is dry ice or special refrigerator-freezer partition method, will the touch module of discrete touch screen to insert in dry ice four ~ five minutes, the touch module that maybe will reclaim discrete touch screen is positioned in industrial freezing freezer, then puts on to put and freeze gloves touch module of taking and be separated.This method can to a small amount of product carry out recovery be separated, dry ice and refrigerator-freezer separation costs lower than liquid nitrogen.But solidified product for the stronger product of stickiness or through ultraviolet (UV), be separated just difficulty, and disposable Success rate of virus isolation is low, need repeatedly as in dry ice or refrigerator-freezer, efficiency is low.

The third method is Linear cut method, this kind of method will the touch module of discrete touch screen be placed on a heating platform, touch module is heated to 120 ~ 130 degrees Celsius, optical cement is softened, cut the optical cement between touch-screen and display screen back and forth by wire (such as: the molybdenum filament) left and right that toughness is higher again, thus be separated display screen and touch-screen.This method does not need to wear Frostbite preventing gloves, relatively safe, and be separated the consumptive material that uses and material cost lower, wide accommodation.But wire easily disconnects when moving back and forth cutting, and heating-up temperature is higher, and also easily cause operating personnel to scald, cutting efficiency is lower.

Utility model content

The purpose of this utility model is to provide a kind of touch-screen to reclaim separator, and when being intended to solve touch-screen in prior art metal wire cutting separation touch module, wire easily disconnects, and easily causes operating personnel to scald, the problem that cutting efficiency is lower.

The utility model realizes like this, a kind of touch-screen reclaims separator, comprise support box, this touch-screen reclaim separator also comprise for support touch module and this touch module is heated to 70 ~ 80 degrees Celsius warm table, be used for cutting described touch module with isolate touch-screen wire, be used for driving described wire in described touch module transverse shifting to cut the Power Component of this touch module and to be used for the driving mechanism that drives described wire towards described touch module feeding; Described warm table is installed on described support box, and described driving mechanism is installed on described support box, and described Power Component is installed on described driving mechanism, and described wire is installed on described Power Component; Described wire surface is provided with some micro-structurals.

Further, the some described micro-structural on described wire forms zigzag or some described micro-structurals along the cross section in this wire length direction, and to form along the cross section in described wire length direction the cross section that wavy edge or some described micro-structurals form shape of threads or each this wire length direction of described micro-structural be burr shape.

Further, described wire ringwise and be set on described Power Component.

Further, described Power Component comprises two driving wheels driving described wire to rotate and the power motor driving a described wheel rotation; Two described driving wheels are all installed on described driving mechanism, and two described driving wheels lay respectively at the both sides of described warm table, and described power motor is fixed on described driving mechanism; Described wire connects two described driving wheels.

Further, two described driving wheels are separately installed with electrode wiry described in electrified regulation.

Further, described driving mechanism comprises two guide rails being arranged at described warm table both sides respectively and transverse strands and is located at crossbearer on described warm table, and the two ends of described crossbearer are slidably mounted on two described guide rails respectively; Described Power Component is installed on described crossbearer.

Further, each described guide rail is cylindric, and described driving mechanism also comprises the supporting seat supporting each described guide rail two ends respectively, and described supporting seat is installed on described support box.

Further, the two ends of described crossbearer are separately installed with sliding sleeve, and described sliding sleeve engagement sleeves is loaded on corresponding described guide rail.

Further, described driving mechanism also comprises that to promote described crossbearer mobile with the actuator driving touch module described in described metal wire cutting on described guide rail.

Further, described actuator is pull handle, and described pull handle comprises spaced two connecting rods and the pull bar being connected two described connecting rods, and two described connecting rods are connected with corresponding described sliding sleeve respectively away from the end of described pull bar.

Touch module is heated to 70 ~ 80 degrees Celsius by the utility model, the optical cement of touch module is suitably expanded, softening, increases the distance between touch-screen and display screen or substrate, facilitates metal wire cutting; Micro-structural is set in wire surface, makes wire surface more coarse, during the optical cement of cutting on line touch module, form saw cut effect, improve cutting efficiency; And only touch module is heated to 70 ~ 80 degrees Celsius, do not make optical cement completely softening, make the viscosity of optical cement unlikely excessive, reduce bonding resistance wiry, the probability that reduction wire is pulled off namely, namely can not only the sawed-off optical cement of more convenient micro-structural wiry, and the sawed-off optical cement of wire can be reduced; On the other hand relative to prior art, reduce heating-up temperature, more energy-conservation, also can reduce the probability of the problem generation of scalding operating personnel.Use driving mechanism to control the amount of feeding wiry, operating personnel's contacting metal silk and warm table can be reduced, better prevent from injuring operating personnel.

Accompanying drawing explanation

Fig. 1 is the perspective view of the touch-screen recovery separator that the utility model embodiment one provides;

Fig. 2 is the plan structure schematic diagram of the touch-screen recovery separator of Fig. 1;

Fig. 3 is the side-looking structural representation of the touch-screen recovery separator of Fig. 1;

Fig. 4 is the perspective view of driving mechanism in the touch-screen recovery separator of Fig. 1;

Fig. 5 is that the touch-screen of Fig. 1 reclaims part structure for amplifying schematic diagram wiry in separator.

Fig. 6 is that the touch-screen that the utility model embodiment two provides reclaims part structure for amplifying schematic diagram wiry in separator.

Fig. 7 is that the touch-screen that the utility model embodiment three provides reclaims part structure for amplifying schematic diagram wiry in separator.

Fig. 8 is that the touch-screen that the utility model embodiment four provides reclaims part structure for amplifying schematic diagram wiry in separator.

Fig. 9 is that the touch-screen that the utility model embodiment five provides reclaims part structure for amplifying schematic diagram wiry in separator.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Embodiment one:

Refer to Fig. 1, Fig. 2 and Fig. 3, a kind of touch-screen that the utility model embodiment provides reclaims separator 100, comprises support box 1, warm table 2, wire 4, Power Component 3 and driving mechanism 5; Warm table 2 is installed on support box 1, for support to be separated go out the touch module of touch-screen, and this touch module is heated to 70 ~ 80 degrees Celsius, so that wire 4 cuts the optical cement of touch module, touch-screen is separated; 4, wire is used for the optical cement of Linear cut touch module; Wire 4 is arranged on Power Component 3, drives wire 4 at the optical cement place transverse shifting of touch module, to cut this optical cement by Power Component 3; Power Component 3 is arranged on driving mechanism 5, driving mechanism 5 is arranged on support box 1, Power Component 3 is driven to move towards the touch module on warm table 2 by driving mechanism 5, move towards touch module to drive wire 4, namely the optical cement that Power Component 3 cuts touch module for wire 4 provides cutting power, driving mechanism 5 then controls amount of feeding when wire 4 cuts, to be cut down from touch module by touch-screen.See also Fig. 5, the surface of wire 4 arranges some micro-structural 41a, thus makes wire 4 surface more coarse, forms saw cut effect during the optical cement of cutting on line touch module, improves cutting efficiency.

In the utility model embodiment, touch module is heated to 70 ~ 80 degrees Celsius, the optical cement of touch module is suitably expanded, softening, increase the distance between touch-screen and display screen or substrate, facilitate wire 4 to cut; Micro-structural 41a is set on wire 4 surface, makes wire 4 surface more coarse, during the optical cement of cutting on line touch module, form saw cut effect, improve cutting efficiency; And only touch module is heated to 70 ~ 80 degrees Celsius, do not make optical cement completely softening, make the viscosity of optical cement unlikely excessive, reduce the bonding resistance to wire 4, the probability that reduction wire 4 is pulled off namely, namely can not only the sawed-off optical cement of micro-structural 41a of more convenient wire 4, and the sawed-off optical cement of wire 4 can be reduced; On the other hand relative to prior art, reduce heating-up temperature, more energy-conservation, also can reduce the probability of the problem generation of scalding operating personnel.Use driving mechanism 5 to control the amount of feeding of wire 4, operating personnel's contacting metal silk 4 and warm table 2 can be reduced, better prevent from injuring operating personnel.

In the present embodiment, each micro-structural 41a is burr shape, and like this when wire 4 cuts the optical cement of touch module, burr can hook softening optical cement, and the top of burr can better be inserted in optical cement in addition, to be cut off by optical cement, improves cutting efficiency.

Further, in the present embodiment, ringwise, and wire 4 is set on Power Component 3 wire 4.Such Power Component 3 drives wire 4 to rotate, and wire 4 can be driven along touch module transverse shifting (in the utility model, wire 4 transverse shifting refers to that wire 4 moves along perpendicular to direction of feed); In addition, wire 4 ringwise, can better move in the same direction, thus when cutting the optical cement of touch module, whole piece wire 4 all can participate in cutting, wearing and tearing during cutting evenly, prevent wire 4 subregion serious wear and affect service life of wire 4; Temperature raising when cutting touch module of wire 4, when wire 4 moves in the same direction, the part leaving touch module can not enter in touch module at once cuts again, thus can dispel the heat, prevent wire 4 temperature too high, extend service life of wire 4, the optical cement of wire 4 hot mastication touch module can be prevented simultaneously and affect life-span of cutting efficiency and wire 4.

In the present embodiment, the power motor (not shown) that Power Component 3 comprises two driving wheels 31 and drives one of them driving wheel 31 to rotate, wire 4 is enclosed within two driving wheels 31; Namely in two driving wheels 31: one is driving wheel, another is driven pulley, driving wheel is connected with power motor, driving wheel is driven to rotate by power motor, drive wire 4 to rotate, and pass through the transmission of wire 4, drive driven pulley to rotate, thus the rotation making wire 4 stable, to cut touch module.Two driving wheels 31 are all installed on driving mechanism 5, and two driving wheels 31 lay respectively at the both sides of warm table 2, and power motor is fixed on driving mechanism 5.Two driving wheels 31 and power motor are installed on driving mechanism 5, drive two driving wheels 31 to move by driving mechanism 5, wire 4 can be driven to move, realize the control of wire 4 amount of feeding.Because touch module is placed on warm table 2, and two driving wheels 31 are separately positioned on the both sides of warm table 2, when wire 4 is enclosed within two driving wheels 31, wire 4 is laterally located on warm table 2, to cut the touch module on warm table 2.

Further, two driving wheels 31 are separately installed with the electrode (not shown) of electrified regulation wire 4.Difference installing electrodes on two driving wheels 31, when wire 4 is arranged on two driving wheels 31, wire 4 and two electrodes are electrically connected, because wire 4 itself has certain resistance, can generate heat after powered up, namely carry out electrified regulation by electrode pair wire 4.Like this when cutting the optical cement of touch module, wire 4 can keep the temperature of optical cement, prevents optical cement sex change, namely prevents optical cement from running into the lower wire of temperature 4 and hardening, increases cutting difficulty, and affect cutting efficiency.

Further, this touch-screen reclaims separator 100 and also comprises the current regulator (not shown) regulating size of current on wire 4, and current regulator and two electrodes are electrically connected.Electric current on wire 4 is regulated by current regulator, thus control the temperature of wire 4 electrified regulation, make wire 4 heating-up temperature between 70 ~ 80 degrees Celsius, to keep the temperature of the optical cement of touch module better, prevent wire 4 temperature too high and make the optical cement of touch module cross soft and increase the viscosity of optical cement, affecting cutting efficiency.Current regulator is installed in support box 1, carrys out protective current adjuster by support box 1.

Refer to Fig. 1 and Fig. 4, driving mechanism 5 comprises two guide rails 51 and a crossbearer 52, two guide rails 51 are separately positioned on the both sides of warm table 2, and the two ends of crossbearer 52 are slidably mounted on two guide rails 51 respectively, thus make crossbearer 52 transverse strands be located at the top of warm table 2; Power Component 3 is installed on crossbearer 52.Two guide rails 51 are set, and the two ends of crossbearer 52 are slidably mounted on two guide rails 51 respectively, to support crossbearer 52 reposefully, ensure that crossbearer 52 stably can slide on guide rail 51 simultaneously; And Power Component 3 is arranged on crossbearer 52, crossbearer 52 smooth sliding on guide rail 51, can drive Power Component 3 to slide on guide rail 51, and then drives wire 4 to move on warm table 2, realizes the feeding of wire 4 during cutting touch module.In addition, carry out supporting cross bearer 52 by two guide rails 51, ensure the stable movement of crossbearer 52, and then to ensure wire 4 stably feeding; Because the distance between the touch-screen of touch module and display screen or substrate is less, namely the thickness of the optical cement of touch module is relatively thin, wire 4 is easy to cut to touch-screen or substrate when cutting, and ensures the steady feeding of wire 4, can prevent wire 4 from cutting to touch-screen or substrate.

In the present embodiment, each guide rail 51 is in cylindric, and driving mechanism 5 also comprises the supporting seat 511 supporting each guide rail 51 two ends respectively, and supporting seat 511 is installed on support box 1.Use columned guide rail 51, and be supported on support box 1 by supporting seat 511, structure is simple, and cost is low, and easy for installation.In the present embodiment, supporting seat 511 is two right, and often pair of supporting seat 511 correspondence supports the both ends of a guide rail 51.In other embodiments, the cross section of guide rail 51 also can the shape such as triangular in shape or rectangle.

Particularly, crossbearer 52 is in N-shaped, and more specifically, crossbearer 52 comprises cross bar 521 and is slidably mounted on respectively on two guide rails 51 to two pillars, 522, two pillars 522 of downward-extension by the two ends of cross bar 521 respectively.

Sliding sleeve 525 can be installed in the lower end of each pillar 522, and sliding sleeve 525 engagement sleeves is contained on corresponding guide rail 51.By coordinating of sliding sleeve 525 and guide rail 51, ensure that the two ends of crossbearer 52 are stablized, thus crossbearer 52 is stably supported on guide rail 51.For ensureing that sliding sleeve 525 firmly, is stably connected with crossbearer 52, sliding sleeve 525 can be one-body molded with crossbearer 52, also two sliding sleeves 525 can be welded on respectively the lower end of two pillars 522.In other embodiments, also the two ends of guide rail 51 directly can be fixed on support box 1, and on support box 1, the medium position of corresponding guide rail 51 offers groove, is sleeved on guide rail 51 to realize sliding sleeve 525.In other embodiment, can also guide rail 51 be directly fixed on support box 1, and offer draw-in groove in the both sides of guide rail 51, and the slide block coordinated with guide rail 51 is installed at the two ends of crossbearer 52, and slide block is arranged the grab coordinating and snap on guide rail 51 in draw-in groove, also can realize crossbearer 52 to be supported on reposefully on guide rail 51, and ensure crossbearer 52 smooth sliding.

In the present embodiment, driving mechanism 5 also comprises actuator, and actuator is used for promoting crossbearer 52 and moves on guide rail 51, thus drives the Power Component 3 on crossbearer 52 to move along guide rail 51, and then feeding when driving wire 4 realization to cut, to cut the optical cement of touch module.

Particularly, in the present embodiment, actuator is pull handle 53, and pull handle 53 is in N-shaped; Be specially, it is connected away from the sliding sleeve 525 of end respectively with corresponding of this pull bar 532 with pull bar 532, two connecting rods 531 being connected two connecting rods 531 that pull handle 53 comprises spaced two connecting rods 531.At the optical cement of cutting touch module, when shielding with discrete touch, by pulling pull handle 53, to pull two sliding sleeves 525 to slide on guide rail 51, the Power Component 3 on crossbearer 52 and the wire 4 on Power Component 3 is driven to slide along guide rail 51.The two ends of pull handle 53 are connected with two sliding sleeves 525, the active force of pull handle 53 can be made to act directly on sliding sleeve 525, ensure sliding sleeve 525 ground smooth sliding.Pull handle 53 is arranged in N-shaped, can make the two ends of pull handle 53 from the both sides of warm table 2 through being connected with two sliding sleeves 525, namely when promoting pull handle 53, warm table 2 is positioned at the zone line of N-shaped pull handle 53, can prevent operating personnel from contacting warm table 2, prevent personnel from scalding.

In other embodiments, actuator also can for driving cylinder, and drive the piston rod of cylinder to be connected with crossbearer 52, cylinder is fixed on support box 1.Realize automatically promoting crossbearer 52 by cylinder to slide along guide rail 51, namely realize auto-feed when wire 4 cuts.

In other embodiment, in two guide rails 51: one of them guide rail 51 can be screw mandrel, this driving mechanism 5 also comprises the drive motors driving screw mandrel to rotate; Screw mandrel coordinates and is provided with sliding nut, sliding nut is connected with crossbearer 52.More conveniently, sliding nut directly can be connected with the corresponding pillar 522 of crossbearer 52.By screw rod transmission, realize driving crossbearer 52 to move on guide rail 51, accurately can control the shift position of crossbearer 52 in real time, namely can control the feeding of wire 4 more accurately.

In the present embodiment, two driving wheels 31 of Power Component 3 are arranged on two pillars 522 of crossbearer 52 respectively, so that driving wheel 31 distance guide rail 51 is nearer, make driving wheel 31 when moving along guide rail 51, more stable.Supporting each driving wheel 31 for convenience of installing, each pillar 522 being also provided with boss 523, to be arranged on boss 523 by driving wheel 31.For more convenient installation driving wheel 31, boss 523 also offers installing hole 524.The power motor of Power Component 3 is also arranged on crossbearer 52.Support box 1 is also provided with the switch 11 controlling described Power Component 3, described warm table 2 work.

In the present embodiment, be provided with the vavuum pump (not shown) of air in suction warm table 2 in support box 1, the upper surface of warm table 2 offers some adsorption holes 21 for adsorbing touch module.By arranging adsorption hole 21 at the upper surface of warm table 2, in support box 1, install vavuum pump, use vavuum pump aspirates the air in warm table 2, makes the surface of warm table 2 produce suction, to adsorb the touch module of discrete touch to be cut screen.This adsorption structure can also prevent from damaging the touch-screen of touch module and substrate, and the impurity produced when cutting can also be adsorbed by the adsorption hole 21 on the surface of warm table 2, can preventing pollution environment, or pollute touch-screen can substrate.In other embodiments, also can installing to inhale on the upper surface of warm table 2 and paste, adsorbing touch module by inhaling subsides.

Embodiment two:

Refer to Fig. 6, the touch-screen of the present embodiment reclaims separator 100 and reclaims being distinguished as of separator with the touch-screen of embodiment one, and some micro-structural 41b on wire 4 surface form zigzag.Thus when wire 4 during transverse shifting, forms the effect of the optical cement cutting saw touch module, improves cutting speed in touch module.

In the present embodiment, each micro-structural 41b is triangular in shape along the cross section of wire 4 length direction, its drift angle away from this wire 4 surface is acute angle, barb is formed like this between this leg-of-mutton minor face and wire 4 surface, when cutting, more easily take up the impurity cut down, improve cutting efficiency.

Touch-screen recovery other structure of separator 100 of the present embodiment is identical with other structure that the touch-screen of embodiment one reclaims separator, no longer burdensome at this.

Embodiment three:

Refer to Fig. 7, the touch-screen of the present embodiment reclaims separator 100 and reclaims being distinguished as of separator with the touch-screen of embodiment two, each micro-structural 41c is triangular in shape along the cross section of wire 4 length direction, its drift angle away from this wire 4 surface in obtuse angle, like this when wire 4 cuts, its micro-structural 41c is more wear-resistant, longer service life.

Touch-screen recovery other structure of separator 100 of the present embodiment is identical with other structure that the touch-screen of embodiment two reclaims separator, no longer burdensome at this.

Embodiment four:

Refer to Fig. 8, the touch-screen of the present embodiment reclaims separator 100 and reclaims being distinguished as of separator with the touch-screen of embodiment one, some micro-structural 41d form wavy edge along the cross section of wire 4 length direction, and this micro-structural 41d is easy to process, making is simple, and cost is low.

Touch-screen recovery other structure of separator 100 of the present embodiment is identical with other structure that the touch-screen of embodiment two reclaims separator, no longer burdensome at this.

Embodiment five:

Refer to Fig. 9, the touch-screen of the present embodiment reclaims separator 100 and reclaims being distinguished as of separator with the touch-screen of embodiment one, and some micro-structural 41e form shape of threads, and this micro-structural 41e is easy to process, making is simple, and cost is low.

Touch-screen recovery other structure of separator 100 of the present embodiment is identical with other structure that the touch-screen of embodiment two reclaims separator, no longer burdensome at this.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a touch-screen reclaims separator, comprise support box, it is characterized in that, this touch-screen reclaim separator also comprise for support touch module and this touch module is heated to 70 ~ 80 degrees Celsius warm table, be used for cutting described touch module with isolate touch-screen wire, be used for driving described wire in described touch module transverse shifting to cut the Power Component of this touch module and to be used for the driving mechanism that drives described wire towards described touch module feeding; Described warm table is installed on described support box, and described driving mechanism is installed on described support box, and described Power Component is installed on described driving mechanism, and described wire is installed on described Power Component; Described wire surface is provided with some micro-structurals.

2. touch-screen as claimed in claim 1 reclaims separator, it is characterized in that, the some described micro-structural on described wire forms zigzag or some described micro-structurals along the cross section in this wire length direction, and to form along the cross section in described wire length direction the cross section that wavy edge or some described micro-structurals form shape of threads or each this wire length direction of described micro-structural be burr shape.

3. touch-screen as claimed in claim 1 or 2 reclaims separator, it is characterized in that, described wire ringwise and be set on described Power Component.

4. touch-screen as claimed in claim 3 reclaims separator, it is characterized in that, described Power Component comprises two driving wheels driving described wire to rotate and the power motor driving a described wheel rotation; Two described driving wheels are all installed on described driving mechanism, and two described driving wheels lay respectively at the both sides of described warm table, and described power motor is fixed on described driving mechanism; Described wire connects two described driving wheels.

5. touch-screen as claimed in claim 4 reclaims separator, it is characterized in that, two described driving wheels is separately installed with electrode wiry described in electrified regulation.

6. touch-screen as claimed in claim 1 or 2 reclaims separator, it is characterized in that, described driving mechanism comprises two guide rails being arranged at described warm table both sides respectively and transverse strands and is located at crossbearer on described warm table, and the two ends of described crossbearer are slidably mounted on two described guide rails respectively; Described Power Component is installed on described crossbearer.

7. touch-screen as claimed in claim 6 reclaims separator, and it is characterized in that, each described guide rail is cylindric, and described driving mechanism also comprises the supporting seat supporting each described guide rail two ends respectively, and described supporting seat is installed on described support box.

8. touch-screen as claimed in claim 7 reclaims separator, and it is characterized in that, the two ends of described crossbearer are separately installed with sliding sleeve, and described sliding sleeve engagement sleeves is loaded on corresponding described guide rail.

9. touch-screen as claimed in claim 8 reclaims separator, it is characterized in that, it is mobile with the actuator driving touch module described in described metal wire cutting on described guide rail that described driving mechanism also comprises the described crossbearer of promotion.

10. touch-screen as claimed in claim 9 reclaims separator, it is characterized in that, described actuator is pull handle, and described pull handle comprises spaced two connecting rods and the pull bar being connected two described connecting rods, and two described connecting rods are connected with corresponding described sliding sleeve respectively away from the end of described pull bar.